Esophageal development and epithelial homeostasis

SL Rosekrans, B Baan, V Muncan… - American Journal of …, 2015 - journals.physiology.org
SL Rosekrans, B Baan, V Muncan, GR van den Brink
American Journal of Physiology-Gastrointestinal and Liver …, 2015journals.physiology.org
The esophagus is a relatively simple organ that evolved to transport food and liquids
through the thoracic cavity. It is the only part of the gastrointestinal tract that lacks any
metabolic, digestive, or absorptive function. The mucosa of the adult esophagus is covered
by a multilayered squamous epithelium with a remarkable similarity to the epithelium of the
skin despite the fact that these tissues originate from two different germ layers. Here we
review the developmental pathways involved in the establishment of the esophagus and the …
The esophagus is a relatively simple organ that evolved to transport food and liquids through the thoracic cavity. It is the only part of the gastrointestinal tract that lacks any metabolic, digestive, or absorptive function. The mucosa of the adult esophagus is covered by a multilayered squamous epithelium with a remarkable similarity to the epithelium of the skin despite the fact that these tissues originate from two different germ layers. Here we review the developmental pathways involved in the establishment of the esophagus and the way these pathways regulate gut-airway separation. We summarize current knowledge of the mechanisms that maintain homeostasis in esophageal epithelial renewal in the adult and the molecular mechanism of the development of Barrett's metaplasia, the precursor lesion to esophageal adenocarcinoma. Finally, we examine the ongoing debate on the hierarchy of esophageal epithelial precursor cells and on the presence or absence of a specific esophageal stem cell population. Together the recent insights into esophageal development and homeostasis suggest that the pathways that establish the esophagus during development also play a role in the maintenance of the adult epithelium. We are beginning to understand how reflux of gastric content and the resulting chronic inflammation can transform the squamous esophageal epithelium to columnar intestinal type metaplasia in Barrett's esophagus.
American Physiological Society